PARP14 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	PARP14
Entrez Gene ID	54625
Full Name	poly(ADP-ribose) polymerase family member 14
Synonyms	ARTD8,BAL2,PARP-14,pART8
General protein information	Preferred Names poly(ADP-ribose) polymerase family member 14 Names poly [ADP-ribose] polymerase 14 ADP-ribosyltransferase diphtheria toxin-like 8 B-aggressive lymphoma 2 b aggressive lymphoma protein 2 collaborator of STAT6
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 3 Map Location: 3q21.1
Summary	This gene encodes a member of the poly(ADP-ribose) polymerase (PARP) protein family. The encoded anti-apoptotic protein may regulate aerobic glycolysis and promote survival of cancer cells. Increased expression of this gene has been reported in a variety of tumor types. [provided by RefSeq, Jul 2016].
Disorder MIM:	610028

mRNA and Protein(s)

mRNA	Protein	Name
NM_017554.2	NP_060024.2	poly [ADP-ribose] polymerase 14
NM_017554.3	NP_060024.2	protein mono-ADP-ribosyltransferase PARP14
XM_011512929.2	XP_011511231.1	protein mono-ADP-ribosyltransferase PARP14 isoform X2
XM_011512928.2	XP_011511230.1	poly [ADP-ribose] polymerase 14 isoform X1
XM_011512928.3	XP_011511230.1	protein mono-ADP-ribosyltransferase PARP14 isoform X1

Pathways from BioSystems

Homologies

Gallus gallus (chicken)	PARP14	XP_422113.4
Danio rerio (zebrafish)	LOC100332428	XP_002663580.3
Homo sapiens (human)	PARP14	NP_060024.2
Mus musculus (house mouse)	Parp14	NP_001034619.2
Danio rerio (zebrafish)	parp14	XP_691115.6
Xenopus tropicalis (tropical clawed frog)	parp14	XP_004919737.1
Xenopus tropicalis (tropical clawed frog)	LOC101732564	XP_004919736.1
Canis lupus familiaris (dog)	PARP14	XP_850880.2
Rattus norvegicus (Norway rat)	Parp14	NP_001178588.1
Pan troglodytes (chimpanzee)	PARP14	XP_516695.3
	PARP14	XP_001105869.2
Danio rerio (zebrafish)	si:ch211-219a4.3	NP_001107919.2
Xenopus tropicalis (tropical clawed frog)	LOC100487753	XP_002942644.2
Bos taurus (cattle)	PARP14	NP_001193467.1

Gene Ontology
Bibliography

Related articles in PubMed

PARP9 and PARP14 cross-regulate macrophage activation via STAT1 ADP-ribosylation.
Iwata H, Goettsch C, Sharma A, Ricchiuto P, Goh WW, Halu A, Yamada I, Yoshida H, Hara T, Wei M, Inoue N, Fukuda D, Mojcher A, Mattson PC, Barab?si AL, Boothby M, Aikawa E, Singh SA, Aikawa M
Nature communications712849(2016 Oct)

PARP14 promotes the Warburg effect in hepatocellular carcinoma by inhibiting JNK1-dependent PKM2 phosphorylation and activation.
Iansante V, Choy PM, Fung SW, Liu Y, Chai JG, Dyson J, Del Rio A, D'Santos C, Williams R, Chokshi S, Anders RA, Bubici C, Papa S
Nature communications67882(2015 Aug)

A novel role for the mono-ADP-ribosyltransferase PARP14/ARTD8 in promoting homologous recombination and protecting against replication stress.
Nicolae CM, Aho ER, Choe KN, Constantin D, Hu HJ, Lee D, Myung K, Moldovan GL
Nucleic acids research43(6)3143-53(2015 Mar)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The PARP14-JNK1-PKM2 regulatory axis is an important determinant for the Warburg effect in tumour cells and provides a mechanistic link between apoptosis and metabolism.
Title: PARP14 promotes the Warburg effect in hepatocellular carcinoma by inhibiting JNK1-dependent PKM2 phosphorylation and activation.

PARP14 interacts with the DNA replication machinery component PCNA and promotes replication of DNA lesions and common fragile sites.
Title: A novel role for the mono-ADP-ribosyltransferase PARP14/ARTD8 in promoting homologous recombination and protecting against replication stress.

The present study further suggests that the combined targeted inhibition of STAT1, ARTD8, ARTD9 and/or DTX3L could increase the efficacy of chemotherapy or radiation treatment in prostate and other high-risk tumor types with an increased STAT1 signaling.
Title: DTX3L and ARTD9 inhibit IRF1 expression and mediate in cooperation with ARTD8 survival and proliferation of metastatic prostate cancer cells.

PARP14 has a significant role in the development of allergic inflammation, and targeting PARP14, or even PARP activity in general, might be an effective therapy for allergic diseases including eosinophilic esophagitis.
Title: Correlation of increased PARP14 and CCL26 expression in biopsies from children with eosinophilic esophagitis.

Poly(ADP-ribose) polymerase family member 14 (PARP14) is a novel effector of the JNK2-dependent pro-survival signal in multiple myeloma.
Title: Poly(ADP-ribose) polymerase family member 14 (PARP14) is a novel effector of the JNK2-dependent pro-survival signal in multiple myeloma.

The following PARP14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PARP14 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu68477	XM_011512929.2 Latest version!	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu25344	NM_017554.3 Latest version!	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$923.30 $1319.00
OHu68476	XM_011512928.3 Latest version!	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
View Old Accession Versions >>
OHu25344	NM_017554.2	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$923.30 $1319.00
OHu68476	XM_011512928.2	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

PARP14 ( XM_011512929.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011511231.1 Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu68477
Clone ID Related Accession (Same CDS sequence)	XM_011512929.2
Accession Version	XM_011512929.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3630bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	protein mono-ADP-ribosyltransferase PARP14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011512929.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGA TCATCACTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011511231.1
CDS	159..3788
Translation	MAVPGSFPLLVEGSWGPDPPKNLNTKLQMYFQSPKRSGGGECEVRQDPRSPSRFLVFFYPEDVRQKVLERKNHELVWQGKGTFKLTVQLPATPDEIDHVFEEELLTKESKTKEDVKEPDVSEELDTKLPLDGGLDKMEDIPEECENISSLVAFENLKANVTDIMLILLVENISGLSNDDFQVEIIRDFDVAVVTFQKHIDTIRFVDDCTKHHSIKQLQLSPRLLEVTNTIRVENLPPGADDYSLKLFFENPYNGGGRVANVEYFPEESSALIEFFDRKVLDTIMATKLDFNKMPLSVFPYYASLGTALYGKEKPLIKLPAPFEESLDLPLWKFLQKKNHLIEEINDEMRRCHCELTWSQLSGKVTIRPAATLVNEGRPRIKTWQADTSTTLSSIRSKYKVNPIKVDPTMWDTIKNDVKDDRILIEFDTLKEMVILAGKSEDVQSIEVQVRELIESTTQKIKREEQSLKEKMIISPGRYFLLCHSSLLDHLLTECPEIEICYDRVTQHLCLKGPSADVYKAKCEIQEKVYTMAQKNIQVSPEIFQFLQQVNWKEFSKCLFIAQKILALYELEGTTVLLTSCSSEALLEAEKQMLSALNYKRIEVENKEVLHGKKWKGLTHNLLKKQNSSPNTVIINELTSETTAEVIITGCVKEVNETYKLLFNFVEQNMKIERLVEVKPSLVIDYLKTEKKLFWPKIKKVNVQVSFNPENKQKGILLTGSKTEVLKAVDIVKQVWDSVCVKSVHTDKPGAKQFFQDKARFYQSEIKRLFGCYIELQENEVMKEGGSPAGQKCFSRTVLAPGVVLIVQQGDLARLPVDVVVNASNEDLKHYGGLAAALSKAAGPELQADCDQIVKREGRLLPGNATISKAGKLPYHHVIHAVGPRWSGYEAPRCVYLLRRAVQLSLCLAEKYKYRSIAIPAISSGVFGFPLGRCVETIVSAIKENFQFKKDGHCLKEIYLVDVSEKTVEAFAEAVKTVFKATLPDTAAPPGLPPAAAGPGKTSWEKGSLVSPGGLQMLLVKEGVQNAKTDVVVNSVPLDLVLSRGPLSKSLLEKAGPELQEELDTVGQGVAVSMGTVLKTSSWNLDCRYVLHVVAPEWRNGSTSSLKIMEDIIRECMEITESLSLKSIAFPAIGTGNLGFPKNIFAELIISEVFKFSSKNQLKTLQEVHFLLHPSDHENIQAFSDEFARRANGNLVSDKIPKAKDTQDHH

Target ORF information:

RefSeq Version	XM_011512929.2
Organism	Homo sapiens(human)
Definition	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011512929.2

ORF Insert Sequence:

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGA TCATCACTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PARP14 ( NM_017554.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_060024.2 Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.

Price & Availability↑

CloneID	OHu25344
Clone ID Related Accession (Same CDS sequence)	NM_017554.2 , NM_017554.3
Accession Version	NM_017554.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5406bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-10-01
Organism	Homo sapiens(human)
Product	poly [ADP-ribose] polymerase 14
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC320673.1, BU170133.1, CR977108.1, AC092908.9, AC048348.25, AB033094.1, BC032804.1, BC039604.1, AU117601.1 and AA890511.1. This sequence is a reference standard in the RefSeqGene project. On Aug 7, 2007 this sequence version replaced NM_017554.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GATTGAGAGG ATCCAGAATC CAGATCTCTG GAATAGCTAC 
CAGGCAAAGA AAAAAACTAT GGATGCCAAG AATGGCCAGA CAATGAATGA GAAGCAACTC 
TTCCATGGGA CAGATGCCGG CTCCGTGCCA CACGTCAATC GAAATGGCTT TAACCGCAGC 
TATGCCGGAA AGAATGCTGT GGCATATGGA AAGGGAACCT ATTTTGCTGT CAATGCCAAT 
TATTCTGCCA ATGATACGTA CTCCAGACCA GATGCAAATG GGAGAAAGCA TGTGTATTAT 
GTGCGAGTAC TTACTGGAAT CTATACACAT GGAAATCATT CATTAATTGT GCCTCCTTCA 
AAGAACCCTC AAAATCCTAC TGACCTGTAT GACACTGTCA CAGATAATGT GCACCATCCA 
AGTTTATTTG TGGCATTTTA TGACTACCAA GCATACCCAG AGTACCTTAT TACGTTTAGA 
AAATAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_060024.2
CDS	60..5465
Translation	MAVPGSFPLLVEGSWGPDPPKNLNTKLQMYFQSPKRSGGGECEVRQDPRSPSRFLVFFYPEDVRQKVLERKNHELVWQGKGTFKLTVQLPATPDEIDHVFEEELLTKESKTKEDVKEPDVSEELDTKLPLDGGLDKMEDIPEECENISSLVAFENLKANVTDIMLILLVENISGLSNDDFQVEIIRDFDVAVVTFQKHIDTIRFVDDCTKHHSIKQLQLSPRLLEVTNTIRVENLPPGADDYSLKLFFENPYNGGGRVANVEYFPEESSALIEFFDRKVLDTIMATKLDFNKMPLSVFPYYASLGTALYGKEKPLIKLPAPFEESLDLPLWKFLQKKNHLIEEINDEMRRCHCELTWSQLSGKVTIRPAATLVNEGRPRIKTWQADTSTTLSSIRSKYKVNPIKVDPTMWDTIKNDVKDDRILIEFDTLKEMVILAGKSEDVQSIEVQVRELIESTTQKIKREEQSLKEKMIISPGRYFLLCHSSLLDHLLTECPEIEICYDRVTQHLCLKGPSADVYKAKCEIQEKVYTMAQKNIQVSPEIFQFLQQVNWKEFSKCLFIAQKILALYELEGTTVLLTSCSSEALLEAEKQMLSALNYKRIEVENKEVLHGKKWKGLTHNLLKKQNSSPNTVIINELTSETTAEVIITGCVKEVNETYKLLFNFVEQNMKIERLVEVKPSLVIDYLKTEKKLFWPKIKKVNVQVSFNPENKQKGILLTGSKTEVLKAVDIVKQVWDSVCVKSVHTDKPGAKQFFQDKARFYQSEIKRLFGCYIELQENEVMKEGGSPAGQKCFSRTVLAPGVVLIVQQGDLARLPVDVVVNASNEDLKHYGGLAAALSKAAGPELQADCDQIVKREGRLLPGNATISKAGKLPYHHVIHAVGPRWSGYEAPRCVYLLRRAVQLSLCLAEKYKYRSIAIPAISSGVFGFPLGRCVETIVSAIKENFQFKKDGHCLKEIYLVDVSEKTVEAFAEAVKTVFKATLPDTAAPPGLPPAAAGPGKTSWEKGSLVSPGGLQMLLVKEGVQNAKTDVVVNSVPLDLVLSRGPLSKSLLEKAGPELQEELDTVGQGVAVSMGTVLKTSSWNLDCRYVLHVVAPEWRNGSTSSLKIMEDIIRECMEITESLSLKSIAFPAIGTGNLGFPKNIFAELIISEVFKFSSKNQLKTLQEVHFLLHPSDHENIQAFSDEFARRANGNLVSDKIPKAKDTQGFYGTVSSPDSGVYEMKIGSIIFQVASGDITKEEADVIVNSTSNSFNLKAGVSKAILECAGQNVERECSQQAQQRKNDYIITGGGFLRCKNIIHVIGGNDVKSSVSSVLQECEKKNYSSICLPAIGTGNAKQHPDKVAEAIIDAIEDFVQKGSAQSVKKVKVVIFLPQVLDVFYANMKKREGTQLSSQQSVMSKLASFLGFSKQSPQKKNHLVLEKKTESATFRVCGENVTCVEYAISWLQDLIEKEQCPYTSEDECIKDFDEKEYQELNELQKKLNINISLDHKRPLIKVLGISRDVMQARDEIEAMIKRVRLAKEQESRADCISEFIEWQYNDNNTSHCFNKMTNLKLEDARREKKKTVDVKINHRHYTVNLNTYTATDTKGHSLSVQRLTKSKVDIPAHWSDMKQQNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKIERIQNPDLWNSYQAKKKTMDAKNGQTMNEKQLFHGTDAGSVPHVNRNGFNRSYAGKNAVAYGKGTYFAVNANYSANDTYSRPDANGRKHVYYVRVLTGIYTHGNHSLIVPPSKNPQNPTDLYDTVTDNVHHPSLFVAFYDYQAYPEYLITFRK

Target ORF information:

RefSeq Version	NM_017554.2
Organism	Homo sapiens(human)
Definition	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_017554.2

ORF Insert Sequence:

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GATTGAGAGG ATCCAGAATC CAGATCTCTG GAATAGCTAC 
CAGGCAAAGA AAAAAACTAT GGATGCCAAG AATGGCCAGA CAATGAATGA GAAGCAACTC 
TTCCATGGGA CAGATGCCGG CTCCGTGCCA CACGTCAATC GAAATGGCTT TAACCGCAGC 
TATGCCGGAA AGAATGCTGT GGCATATGGA AAGGGAACCT ATTTTGCTGT CAATGCCAAT 
TATTCTGCCA ATGATACGTA CTCCAGACCA GATGCAAATG GGAGAAAGCA TGTGTATTAT 
GTGCGAGTAC TTACTGGAAT CTATACACAT GGAAATCATT CATTAATTGT GCCTCCTTCA 
AAGAACCCTC AAAATCCTAC TGACCTGTAT GACACTGTCA CAGATAATGT GCACCATCCA 
AGTTTATTTG TGGCATTTTA TGACTACCAA GCATACCCAG AGTACCTTAT TACGTTTAGA 
AAATAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PARP14 ( NM_017554.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_060024.2 Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.

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CloneID	OHu25344
Clone ID Related Accession (Same CDS sequence)	NM_017554.2 , NM_017554.3
Accession Version	NM_017554.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5406bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-31
Organism	Homo sapiens(human)
Product	protein mono-ADP-ribosyltransferase PARP14
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092908.9 and AC048348.25. On Nov 23, 2018 this sequence version replaced NM_017554.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.20960.1, SRR1803611.274198.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000474629.7/ ENSP00000418194.2 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GATTGAGAGG ATCCAGAATC CAGATCTCTG GAATAGCTAC 
CAGGCAAAGA AAAAAACTAT GGATGCCAAG AATGGCCAGA CAATGAATGA GAAGCAACTC 
TTCCATGGGA CAGATGCCGG CTCCGTGCCA CACGTCAATC GAAATGGCTT TAACCGCAGC 
TATGCCGGAA AGAATGCTGT GGCATATGGA AAGGGAACCT ATTTTGCTGT CAATGCCAAT 
TATTCTGCCA ATGATACGTA CTCCAGACCA GATGCAAATG GGAGAAAGCA TGTGTATTAT 
GTGCGAGTAC TTACTGGAAT CTATACACAT GGAAATCATT CATTAATTGT GCCTCCTTCA 
AAGAACCCTC AAAATCCTAC TGACCTGTAT GACACTGTCA CAGATAATGT GCACCATCCA 
AGTTTATTTG TGGCATTTTA TGACTACCAA GCATACCCAG AGTACCTTAT TACGTTTAGA 
AAATAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_060024.2
CDS	46..5451
Translation	MAVPGSFPLLVEGSWGPDPPKNLNTKLQMYFQSPKRSGGGECEVRQDPRSPSRFLVFFYPEDVRQKVLERKNHELVWQGKGTFKLTVQLPATPDEIDHVFEEELLTKESKTKEDVKEPDVSEELDTKLPLDGGLDKMEDIPEECENISSLVAFENLKANVTDIMLILLVENISGLSNDDFQVEIIRDFDVAVVTFQKHIDTIRFVDDCTKHHSIKQLQLSPRLLEVTNTIRVENLPPGADDYSLKLFFENPYNGGGRVANVEYFPEESSALIEFFDRKVLDTIMATKLDFNKMPLSVFPYYASLGTALYGKEKPLIKLPAPFEESLDLPLWKFLQKKNHLIEEINDEMRRCHCELTWSQLSGKVTIRPAATLVNEGRPRIKTWQADTSTTLSSIRSKYKVNPIKVDPTMWDTIKNDVKDDRILIEFDTLKEMVILAGKSEDVQSIEVQVRELIESTTQKIKREEQSLKEKMIISPGRYFLLCHSSLLDHLLTECPEIEICYDRVTQHLCLKGPSADVYKAKCEIQEKVYTMAQKNIQVSPEIFQFLQQVNWKEFSKCLFIAQKILALYELEGTTVLLTSCSSEALLEAEKQMLSALNYKRIEVENKEVLHGKKWKGLTHNLLKKQNSSPNTVIINELTSETTAEVIITGCVKEVNETYKLLFNFVEQNMKIERLVEVKPSLVIDYLKTEKKLFWPKIKKVNVQVSFNPENKQKGILLTGSKTEVLKAVDIVKQVWDSVCVKSVHTDKPGAKQFFQDKARFYQSEIKRLFGCYIELQENEVMKEGGSPAGQKCFSRTVLAPGVVLIVQQGDLARLPVDVVVNASNEDLKHYGGLAAALSKAAGPELQADCDQIVKREGRLLPGNATISKAGKLPYHHVIHAVGPRWSGYEAPRCVYLLRRAVQLSLCLAEKYKYRSIAIPAISSGVFGFPLGRCVETIVSAIKENFQFKKDGHCLKEIYLVDVSEKTVEAFAEAVKTVFKATLPDTAAPPGLPPAAAGPGKTSWEKGSLVSPGGLQMLLVKEGVQNAKTDVVVNSVPLDLVLSRGPLSKSLLEKAGPELQEELDTVGQGVAVSMGTVLKTSSWNLDCRYVLHVVAPEWRNGSTSSLKIMEDIIRECMEITESLSLKSIAFPAIGTGNLGFPKNIFAELIISEVFKFSSKNQLKTLQEVHFLLHPSDHENIQAFSDEFARRANGNLVSDKIPKAKDTQGFYGTVSSPDSGVYEMKIGSIIFQVASGDITKEEADVIVNSTSNSFNLKAGVSKAILECAGQNVERECSQQAQQRKNDYIITGGGFLRCKNIIHVIGGNDVKSSVSSVLQECEKKNYSSICLPAIGTGNAKQHPDKVAEAIIDAIEDFVQKGSAQSVKKVKVVIFLPQVLDVFYANMKKREGTQLSSQQSVMSKLASFLGFSKQSPQKKNHLVLEKKTESATFRVCGENVTCVEYAISWLQDLIEKEQCPYTSEDECIKDFDEKEYQELNELQKKLNINISLDHKRPLIKVLGISRDVMQARDEIEAMIKRVRLAKEQESRADCISEFIEWQYNDNNTSHCFNKMTNLKLEDARREKKKTVDVKINHRHYTVNLNTYTATDTKGHSLSVQRLTKSKVDIPAHWSDMKQQNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKIERIQNPDLWNSYQAKKKTMDAKNGQTMNEKQLFHGTDAGSVPHVNRNGFNRSYAGKNAVAYGKGTYFAVNANYSANDTYSRPDANGRKHVYYVRVLTGIYTHGNHSLIVPPSKNPQNPTDLYDTVTDNVHHPSLFVAFYDYQAYPEYLITFRK

Target ORF information:

RefSeq Version	NM_017554.3
Organism	Homo sapiens(human)
Definition	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_017554.3

ORF Insert Sequence:

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GATTGAGAGG ATCCAGAATC CAGATCTCTG GAATAGCTAC 
CAGGCAAAGA AAAAAACTAT GGATGCCAAG AATGGCCAGA CAATGAATGA GAAGCAACTC 
TTCCATGGGA CAGATGCCGG CTCCGTGCCA CACGTCAATC GAAATGGCTT TAACCGCAGC 
TATGCCGGAA AGAATGCTGT GGCATATGGA AAGGGAACCT ATTTTGCTGT CAATGCCAAT 
TATTCTGCCA ATGATACGTA CTCCAGACCA GATGCAAATG GGAGAAAGCA TGTGTATTAT 
GTGCGAGTAC TTACTGGAAT CTATACACAT GGAAATCATT CATTAATTGT GCCTCCTTCA 
AAGAACCCTC AAAATCCTAC TGACCTGTAT GACACTGTCA CAGATAATGT GCACCATCCA 
AGTTTATTTG TGGCATTTTA TGACTACCAA GCATACCCAG AGTACCTTAT TACGTTTAGA 
AAATAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PARP14 ( XM_011512928.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011511230.1 Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X2, mRNA.

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CloneID	OHu68476
Clone ID Related Accession (Same CDS sequence)	XM_011512928.2 , XM_011512928.3
Accession Version	XM_011512928.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5160bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	poly [ADP-ribose] polymerase 14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011512928.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GGCACGCTGT TTCTCTTCCA AACCCCTAAT TCTAGCTTTA 
TTCACGCCAT TTATGCTTAA ACGGTCTTTT GTCTCTGTAC CTCACCAGGG AATATATTTA 
CCCTTCTTGG ATTCAACTAT TAGTTCAATG TCAATAGCTC CCAAATCAAC ATTACCAACC 
TGGGTCTTTG ACTCAAGCTC TAGAACATAC TCCCAGTGGC CTAAAAAAAT CTCCACTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011511230.1
CDS	151..5310
Translation	MAVPGSFPLLVEGSWGPDPPKNLNTKLQMYFQSPKRSGGGECEVRQDPRSPSRFLVFFYPEDVRQKVLERKNHELVWQGKGTFKLTVQLPATPDEIDHVFEEELLTKESKTKEDVKEPDVSEELDTKLPLDGGLDKMEDIPEECENISSLVAFENLKANVTDIMLILLVENISGLSNDDFQVEIIRDFDVAVVTFQKHIDTIRFVDDCTKHHSIKQLQLSPRLLEVTNTIRVENLPPGADDYSLKLFFENPYNGGGRVANVEYFPEESSALIEFFDRKVLDTIMATKLDFNKMPLSVFPYYASLGTALYGKEKPLIKLPAPFEESLDLPLWKFLQKKNHLIEEINDEMRRCHCELTWSQLSGKVTIRPAATLVNEGRPRIKTWQADTSTTLSSIRSKYKVNPIKVDPTMWDTIKNDVKDDRILIEFDTLKEMVILAGKSEDVQSIEVQVRELIESTTQKIKREEQSLKEKMIISPGRYFLLCHSSLLDHLLTECPEIEICYDRVTQHLCLKGPSADVYKAKCEIQEKVYTMAQKNIQVSPEIFQFLQQVNWKEFSKCLFIAQKILALYELEGTTVLLTSCSSEALLEAEKQMLSALNYKRIEVENKEVLHGKKWKGLTHNLLKKQNSSPNTVIINELTSETTAEVIITGCVKEVNETYKLLFNFVEQNMKIERLVEVKPSLVIDYLKTEKKLFWPKIKKVNVQVSFNPENKQKGILLTGSKTEVLKAVDIVKQVWDSVCVKSVHTDKPGAKQFFQDKARFYQSEIKRLFGCYIELQENEVMKEGGSPAGQKCFSRTVLAPGVVLIVQQGDLARLPVDVVVNASNEDLKHYGGLAAALSKAAGPELQADCDQIVKREGRLLPGNATISKAGKLPYHHVIHAVGPRWSGYEAPRCVYLLRRAVQLSLCLAEKYKYRSIAIPAISSGVFGFPLGRCVETIVSAIKENFQFKKDGHCLKEIYLVDVSEKTVEAFAEAVKTVFKATLPDTAAPPGLPPAAAGPGKTSWEKGSLVSPGGLQMLLVKEGVQNAKTDVVVNSVPLDLVLSRGPLSKSLLEKAGPELQEELDTVGQGVAVSMGTVLKTSSWNLDCRYVLHVVAPEWRNGSTSSLKIMEDIIRECMEITESLSLKSIAFPAIGTGNLGFPKNIFAELIISEVFKFSSKNQLKTLQEVHFLLHPSDHENIQAFSDEFARRANGNLVSDKIPKAKDTQGFYGTVSSPDSGVYEMKIGSIIFQVASGDITKEEADVIVNSTSNSFNLKAGVSKAILECAGQNVERECSQQAQQRKNDYIITGGGFLRCKNIIHVIGGNDVKSSVSSVLQECEKKNYSSICLPAIGTGNAKQHPDKVAEAIIDAIEDFVQKGSAQSVKKVKVVIFLPQVLDVFYANMKKREGTQLSSQQSVMSKLASFLGFSKQSPQKKNHLVLEKKTESATFRVCGENVTCVEYAISWLQDLIEKEQCPYTSEDECIKDFDEKEYQELNELQKKLNINISLDHKRPLIKVLGISRDVMQARDEIEAMIKRVRLAKEQESRADCISEFIEWQYNDNNTSHCFNKMTNLKLEDARREKKKTVDVKINHRHYTVNLNTYTATDTKGHSLSVQRLTKSKVDIPAHWSDMKQQNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKARCFSSKPLILALFTPFMLKRSFVSVPHQGIYLPFLDSTISSMSIAPKSTLPTWVFDSSSRTYSQWPKKIST

Target ORF information:

RefSeq Version	XM_011512928.2
Organism	Homo sapiens(human)
Definition	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011512928.2

ORF Insert Sequence:

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GGCACGCTGT TTCTCTTCCA AACCCCTAAT TCTAGCTTTA 
TTCACGCCAT TTATGCTTAA ACGGTCTTTT GTCTCTGTAC CTCACCAGGG AATATATTTA 
CCCTTCTTGG ATTCAACTAT TAGTTCAATG TCAATAGCTC CCAAATCAAC ATTACCAACC 
TGGGTCTTTG ACTCAAGCTC TAGAACATAC TCCCAGTGGC CTAAAAAAAT CTCCACTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PARP14 ( XM_011512928.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011511230.1 Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X1, mRNA.

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CloneID	OHu68476
Clone ID Related Accession (Same CDS sequence)	XM_011512928.2 , XM_011512928.3
Accession Version	XM_011512928.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5160bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	protein mono-ADP-ribosyltransferase PARP14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011512928.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GGCACGCTGT TTCTCTTCCA AACCCCTAAT TCTAGCTTTA 
TTCACGCCAT TTATGCTTAA ACGGTCTTTT GTCTCTGTAC CTCACCAGGG AATATATTTA 
CCCTTCTTGG ATTCAACTAT TAGTTCAATG TCAATAGCTC CCAAATCAAC ATTACCAACC 
TGGGTCTTTG ACTCAAGCTC TAGAACATAC TCCCAGTGGC CTAAAAAAAT CTCCACTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011511230.1
CDS	151..5310
Translation	MAVPGSFPLLVEGSWGPDPPKNLNTKLQMYFQSPKRSGGGECEVRQDPRSPSRFLVFFYPEDVRQKVLERKNHELVWQGKGTFKLTVQLPATPDEIDHVFEEELLTKESKTKEDVKEPDVSEELDTKLPLDGGLDKMEDIPEECENISSLVAFENLKANVTDIMLILLVENISGLSNDDFQVEIIRDFDVAVVTFQKHIDTIRFVDDCTKHHSIKQLQLSPRLLEVTNTIRVENLPPGADDYSLKLFFENPYNGGGRVANVEYFPEESSALIEFFDRKVLDTIMATKLDFNKMPLSVFPYYASLGTALYGKEKPLIKLPAPFEESLDLPLWKFLQKKNHLIEEINDEMRRCHCELTWSQLSGKVTIRPAATLVNEGRPRIKTWQADTSTTLSSIRSKYKVNPIKVDPTMWDTIKNDVKDDRILIEFDTLKEMVILAGKSEDVQSIEVQVRELIESTTQKIKREEQSLKEKMIISPGRYFLLCHSSLLDHLLTECPEIEICYDRVTQHLCLKGPSADVYKAKCEIQEKVYTMAQKNIQVSPEIFQFLQQVNWKEFSKCLFIAQKILALYELEGTTVLLTSCSSEALLEAEKQMLSALNYKRIEVENKEVLHGKKWKGLTHNLLKKQNSSPNTVIINELTSETTAEVIITGCVKEVNETYKLLFNFVEQNMKIERLVEVKPSLVIDYLKTEKKLFWPKIKKVNVQVSFNPENKQKGILLTGSKTEVLKAVDIVKQVWDSVCVKSVHTDKPGAKQFFQDKARFYQSEIKRLFGCYIELQENEVMKEGGSPAGQKCFSRTVLAPGVVLIVQQGDLARLPVDVVVNASNEDLKHYGGLAAALSKAAGPELQADCDQIVKREGRLLPGNATISKAGKLPYHHVIHAVGPRWSGYEAPRCVYLLRRAVQLSLCLAEKYKYRSIAIPAISSGVFGFPLGRCVETIVSAIKENFQFKKDGHCLKEIYLVDVSEKTVEAFAEAVKTVFKATLPDTAAPPGLPPAAAGPGKTSWEKGSLVSPGGLQMLLVKEGVQNAKTDVVVNSVPLDLVLSRGPLSKSLLEKAGPELQEELDTVGQGVAVSMGTVLKTSSWNLDCRYVLHVVAPEWRNGSTSSLKIMEDIIRECMEITESLSLKSIAFPAIGTGNLGFPKNIFAELIISEVFKFSSKNQLKTLQEVHFLLHPSDHENIQAFSDEFARRANGNLVSDKIPKAKDTQGFYGTVSSPDSGVYEMKIGSIIFQVASGDITKEEADVIVNSTSNSFNLKAGVSKAILECAGQNVERECSQQAQQRKNDYIITGGGFLRCKNIIHVIGGNDVKSSVSSVLQECEKKNYSSICLPAIGTGNAKQHPDKVAEAIIDAIEDFVQKGSAQSVKKVKVVIFLPQVLDVFYANMKKREGTQLSSQQSVMSKLASFLGFSKQSPQKKNHLVLEKKTESATFRVCGENVTCVEYAISWLQDLIEKEQCPYTSEDECIKDFDEKEYQELNELQKKLNINISLDHKRPLIKVLGISRDVMQARDEIEAMIKRVRLAKEQESRADCISEFIEWQYNDNNTSHCFNKMTNLKLEDARREKKKTVDVKINHRHYTVNLNTYTATDTKGHSLSVQRLTKSKVDIPAHWSDMKQQNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKARCFSSKPLILALFTPFMLKRSFVSVPHQGIYLPFLDSTISSMSIAPKSTLPTWVFDSSSRTYSQWPKKIST

Target ORF information:

RefSeq Version	XM_011512928.3
Organism	Homo sapiens(human)
Definition	Homo sapiens poly(ADP-ribose) polymerase family member 14 (PARP14), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011512928.3

ORF Insert Sequence:

ATGGCTGTGC CCGGCTCCTT CCCGCTGCTG GTCGAGGGCT CCTGGGGCCC CGACCCCCCG 
AAGAACTTGA ACACCAAGTT GCAGATGTAC TTCCAGAGCC CGAAGAGGTC GGGAGGCGGC 
GAGTGTGAGG TCCGCCAGGA TCCCAGGAGC CCATCCCGCT TCCTGGTGTT CTTCTACCCG 
GAGGACGTTC GGCAGAAGGT TCTGGAGAGA AAAAATCATG AGTTGGTATG GCAAGGAAAA 
GGAACATTCA AGTTAACTGT CCAGTTACCT GCAACCCCAG ATGAAATCGA TCATGTCTTT 
GAAGAGGAAC TTCTAACAAA AGAATCCAAG ACCAAAGAAG ATGTTAAAGA ACCAGATGTG 
TCAGAAGAAT TGGATACAAA ACTCCCTCTT GATGGTGGAT TAGACAAAAT GGAAGATATC 
CCAGAGGAAT GTGAAAATAT TTCCTCTTTG GTGGCATTTG AAAACCTCAA GGCAAATGTG 
ACTGACATAA TGCTAATCTT GTTAGTGGAG AACATAAGTG GCCTGTCTAA TGATGACTTT 
CAAGTGGAAA TAATAAGAGA TTTTGATGTT GCTGTTGTTA CCTTTCAAAA GCACATAGAT 
ACTATAAGAT TTGTTGATGA TTGTACCAAG CACCATTCAA TTAAACAACT TCAGCTTTCT 
CCAAGACTTC TGGAAGTGAC AAACACAATC AGGGTTGAAA ACCTGCCACC TGGTGCTGAT 
GACTACAGTT TAAAACTTTT CTTTGAAAAT CCCTATAATG GAGGGGGAAG AGTTGCCAAT 
GTTGAATATT TTCCTGAAGA GAGTTCAGCT CTGATTGAAT TTTTTGACAG AAAAGTGTTA 
GACACCATCA TGGCCACAAA ACTCGACTTC AATAAAATGC CACTTTCTGT GTTCCCATAC 
TATGCCTCAT TGGGCACAGC CTTGTATGGA AAGGAGAAGC CTCTGATCAA GCTTCCAGCA 
CCATTTGAAG AGTCACTAGA TCTTCCCTTA TGGAAGTTCT TACAGAAAAA GAATCACCTC 
ATTGAGGAGA TAAACGATGA AATGAGGCGT TGTCACTGTG AGCTCACGTG GTCCCAACTC 
AGTGGTAAAG TTACCATCAG ACCAGCAGCC ACCTTAGTCA ATGAAGGAAG ACCGAGAATC 
AAGACCTGGC AGGCAGATAC TTCCACAACA CTCTCTAGCA TCAGGTCTAA ATATAAAGTC 
AACCCAATTA AAGTGGATCC AACAATGTGG GACACCATAA AAAATGATGT GAAAGATGAC 
AGGATTTTGA TTGAGTTTGA TACACTTAAG GAGATGGTAA TCTTAGCAGG GAAATCAGAG 
GATGTCCAAA GCATTGAGGT ACAAGTCAGG GAGTTAATAG AAAGCACTAC TCAAAAAATT 
AAAAGGGAAG AGCAAAGTTT GAAGGAAAAA ATGATCATTT CTCCAGGCAG GTATTTTCTT 
TTGTGTCACA GCAGTCTACT GGACCATTTA CTCACGGAGT GCCCAGAGAT AGAGATTTGT 
TACGATAGAG TCACTCAACA CTTGTGCTTG AAAGGACCTA GTGCAGATGT GTATAAAGCA 
AAGTGTGAAA TCCAGGAAAA GGTGTACACC ATGGCTCAGA AAAACATTCA GGTTTCTCCT 
GAGATTTTTC AGTTTTTGCA ACAGGTAAAC TGGAAAGAAT TCTCTAAGTG TCTTTTCATA 
GCACAGAAGA TTCTTGCACT TTATGAGCTA GAGGGTACAA CTGTTCTCTT AACCAGCTGT 
TCTTCTGAAG CCCTGTTAGA AGCAGAAAAG CAAATGCTCA GTGCCTTAAA TTATAAGCGC 
ATTGAAGTTG AGAACAAAGA AGTTCTTCAT GGCAAGAAAT GGAAAGGGCT CACTCACAAT 
TTGCTTAAGA AACAAAATTC CTCCCCAAAC ACTGTAATCA TCAATGAGTT AACTTCAGAA 
ACCACAGCTG AAGTCATCAT TACAGGCTGT GTAAAAGAAG TAAATGAAAC CTATAAATTG 
CTTTTTAACT TCGTTGAACA AAACATGAAA ATAGAGAGAC TGGTTGAAGT AAAGCCTTCC 
TTAGTTATTG ACTATTTAAA GACAGAAAAG AAGCTATTCT GGCCAAAGAT AAAGAAGGTA 
AATGTGCAGG TAAGTTTCAA TCCTGAGAAC AAACAAAAAG GCATTTTACT AACTGGCTCA 
AAGACCGAAG TACTGAAGGC AGTGGACATT GTCAAGCAAG TCTGGGATTC AGTCTGTGTT 
AAAAGTGTCC ATACTGATAA GCCAGGAGCC AAGCAGTTCT TCCAGGATAA AGCACGGTTT 
TATCAAAGTG AGATCAAACG GTTGTTTGGT TGTTACATTG AACTACAGGA GAATGAAGTA 
ATGAAGGAGG GAGGCAGCCC CGCTGGGCAG AAGTGCTTCT CTCGGACAGT CTTGGCCCCT 
GGCGTTGTGC TGATTGTGCA GCAGGGTGAC TTGGCACGGC TTCCTGTCGA TGTGGTGGTG 
AATGCATCTA ATGAGGACCT TAAGCATTAT GGTGGCCTGG CCGCTGCGCT CTCAAAAGCA 
GCTGGCCCTG AGCTCCAGGC CGACTGTGAC CAGATAGTGA AGAGAGAGGG CAGACTCCTA 
CCGGGCAATG CCACCATCTC CAAGGCAGGA AAGCTGCCCT ACCACCACGT GATCCATGCA 
GTGGGGCCCC GCTGGAGCGG ATATGAGGCC CCGAGGTGTG TGTACCTATT AAGGAGAGCT 
GTGCAACTCA GTCTCTGTCT AGCCGAAAAA TACAAGTACC GATCCATAGC CATCCCAGCT 
ATTAGTTCTG GAGTCTTTGG CTTTCCCTTA GGCCGATGCG TGGAGACCAT TGTTTCTGCC 
ATCAAGGAAA ACTTCCAATT CAAGAAGGAT GGACACTGCT TGAAAGAAAT CTACCTTGTG 
GATGTATCTG AGAAGACTGT TGAGGCCTTT GCAGAAGCTG TGAAAACTGT ATTTAAAGCC 
ACCCTGCCAG ATACAGCTGC CCCGCCAGGT TTACCACCAG CAGCAGCGGG GCCTGGGAAA 
ACATCATGGG AAAAAGGAAG CCTGGTGTCC CCGGGAGGCC TGCAGATGCT GTTGGTGAAA 
GAGGGTGTGC AGAATGCTAA GACCGATGTT GTTGTCAACT CCGTTCCCTT GGATCTCGTG 
CTTAGTAGAG GGCCTCTTTC TAAGTCCCTC TTGGAAAAAG CTGGACCAGA GCTCCAGGAG 
GAATTGGACA CAGTTGGACA AGGGGTGGCT GTCAGCATGG GCACAGTGCT CAAAACCAGC 
AGCTGGAATC TGGACTGTCG CTATGTGCTT CACGTGGTAG CTCCGGAGTG GAGAAATGGT 
AGCACATCTT CACTCAAGAT AATGGAAGAC ATAATCAGAG AATGTATGGA GATCACTGAG 
AGCTTGTCCT TAAAATCAAT TGCATTTCCA GCAATAGGAA CAGGAAACTT GGGATTTCCT 
AAAAACATAT TCGCTGAATT AATCATTTCA GAGGTGTTCA AATTTAGTAG CAAGAATCAG 
CTGAAAACTT TACAAGAGGT TCACTTTCTG CTGCACCCGA GTGATCATGA AAATATTCAG 
GCATTTTCAG ATGAATTTGC CAGAAGGGCT AATGGAAATC TCGTCAGTGA CAAAATTCCG 
AAGGCTAAAG ATACACAAGG TTTTTATGGG ACTGTTTCTA GCCCTGATTC AGGTGTGTAT 
GAAATGAAGA TTGGCTCCAT CATCTTCCAG GTGGCTTCTG GAGATATCAC GAAAGAAGAG 
GCAGATGTGA TTGTAAATTC AACATCAAAC TCATTCAATC TCAAAGCAGG GGTCTCCAAA 
GCAATTTTAG AATGTGCTGG ACAAAATGTA GAAAGGGAAT GTTCTCAGCA AGCTCAGCAG 
CGCAAAAATG ATTATATAAT CACCGGAGGT GGATTTTTGA GGTGCAAGAA TATCATTCAT 
GTAATTGGTG GAAATGATGT CAAGAGTTCA GTTTCCTCTG TTTTGCAGGA GTGTGAAAAA 
AAAAATTACT CATCCATTTG CCTCCCAGCC ATTGGGACAG GAAATGCCAA ACAACACCCA 
GATAAGGTTG CTGAAGCCAT AATTGATGCC ATTGAAGACT TTGTCCAGAA AGGATCAGCC 
CAGTCTGTGA AAAAAGTTAA AGTTGTTATC TTTCTGCCTC AAGTACTGGA TGTGTTTTAT 
GCCAACATGA AGAAAAGAGA AGGGACTCAG CTTTCTTCCC AACAGTCTGT GATGTCTAAA 
CTTGCATCAT TTTTGGGCTT TTCAAAGCAA TCTCCCCAAA AAAAGAATCA TTTGGTTTTG 
GAAAAGAAAA CAGAATCAGC AACTTTTCGG GTGTGTGGTG AAAATGTCAC GTGTGTGGAA 
TATGCTATCT CCTGGCTACA AGACCTGATT GAAAAAGAAC AGTGTCCTTA CACCAGTGAA 
GATGAGTGCA TCAAAGACTT TGATGAAAAG GAGTATCAGG AGTTGAATGA GCTGCAGAAG 
AAGTTAAATA TTAACATTTC CCTGGACCAT AAGAGACCTT TGATTAAGGT TTTGGGAATT 
AGCAGAGATG TGATGCAGGC TAGAGATGAA ATTGAGGCGA TGATCAAGAG AGTTCGATTG 
GCCAAAGAAC AGGAATCCCG GGCAGATTGT ATCAGTGAGT TTATAGAATG GCAGTATAAT 
GACAATAACA CTTCTCATTG TTTTAACAAA ATGACCAATC TGAAATTAGA GGATGCAAGG 
AGAGAAAAGA AAAAAACAGT TGATGTCAAA ATTAATCATC GGCACTACAC AGTGAACTTG 
AACACATACA CTGCCACAGA CACAAAGGGC CACAGTTTAT CTGTTCAGCG CCTCACGAAA 
TCCAAAGTTG ACATCCCTGC ACACTGGAGT GATATGAAGC AGCAGAATTT CTGTGTGGTG 
GAGCTGCTGC CTAGTGATCC TGAGTACAAC ACGGTGGCAA GCAAGTTTAA TCAGACCTGC 
TCACACTTCA GAATAGAGAA GGCACGCTGT TTCTCTTCCA AACCCCTAAT TCTAGCTTTA 
TTCACGCCAT TTATGCTTAA ACGGTCTTTT GTCTCTGTAC CTCACCAGGG AATATATTTA 
CCCTTCTTGG ATTCAACTAT TAGTTCAATG TCAATAGCTC CCAAATCAAC ATTACCAACC 
TGGGTCTTTG ACTCAAGCTC TAGAACATAC TCCCAGTGGC CTAAAAAAAT CTCCACTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

PARP9 and PARP14 cross-regulate macrophage activation via STAT1 ADP-ribosylation.
Nature communications712849(2016 Oct)
Iwata H,Goettsch C,Sharma A,Ricchiuto P,Goh WW,Halu A,Yamada I,Yoshida H,Hara T,Wei M,Inoue N,Fukuda D,Mojcher A,Mattson PC,Barab?si AL,Boothby M,Aikawa E,Singh SA,Aikawa M

PARP14 promotes the Warburg effect in hepatocellular carcinoma by inhibiting JNK1-dependent PKM2 phosphorylation and activation.
Nature communications67882(2015 Aug)
Iansante V,Choy PM,Fung SW,Liu Y,Chai JG,Dyson J,Del Rio A,D'Santos C,Williams R,Chokshi S,Anders RA,Bubici C,Papa S

A novel role for the mono-ADP-ribosyltransferase PARP14/ARTD8 in promoting homologous recombination and protecting against replication stress.
Nucleic acids research43(6)3143-53(2015 Mar)
Nicolae CM,Aho ER,Choe KN,Constantin D,Hu HJ,Lee D,Myung K,Moldovan GL

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PARP14 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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